imprs: ultrafast source technologies · -5 . semiconductors: 10-2 . fast response time: < 100 ps...
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IMPRS: Ultrafast Source Technologies
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Lecture V: February 26, 2015: Ultrafast Electron Sources and Accelerators
Franz X. Kärtner Electron Gun Key Parameters:
• operation mode: pulsed or CW • single bunch charge • time structure of the beam • normalized transverse emittance • longitudinal phase space for compression
Different Guns/Photo Injectors for Diff. Applications: • Direct current (DC) gun • Normal conducting (NC) RF gun • Superconducting (SC) RF gun
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Electron Emission and Cathode Emittance
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There typically is a high electron density in a metal or semi- conductor: 1 electron per unit cell with length scale of about 3 Å.
We need to apply work to remove electrons from bulk reservoir:
Thermal Emission: Richardson-Laue-Dushman et al., Rev. of Mod. Phys. 21, 185 (1949)
Field Emission: Fowler Nordheim E.L. Murphy, and R.H. Good, Phys. Rev 102, 1464 (1956).
Photo Emission: Fowler- Dubridge, L.A. DuBridge Phys. Rev 43, 0727 (1933).
Dr. K. Jensen, Naval Research Laboratory
F: DC, RF, (THZ, MID-IR or VIS)
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How short is a Femtosecond
3 USPAS 2013_ Smedley 3
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USPAS 2013_ Smedley 4
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USPAS 2013_ Smedley 5
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USPAS 2013_ Smedley 6
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USPAS 2013_ Smedley 7
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USPAS 2013_ Smedley
Key-Quantitiy: Beam Brilliance
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Other important cathode properties
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Quantum Efficiency: Metals: 10-5 Semiconductors: 10-2
Fast response time: < 100 ps ; uniform emission, flat surface, less than nm level surface roughness low dark current and low field emission at high fields
life time > 1 year at reasonable pressure < 10-10 Torr
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USPAS 2013_ Smedley / Dowell 11
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USPAS 2013_ Smedley 12
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USPAS 2013_ Smedley 13
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USPAS 2013_ Smedley 14
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USPAS 2013_ Smedley 15
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USPAS 2013_ Smedley 16
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Cockcroft-Walton Accelerator
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4 MeV, 100 mA
DC - Accelerator Technology
from K. Wille
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Van de Graaf Generator / Accelerator
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10 MeV
from K. Wille
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RF - Zyklotron
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> 600 MeV
from K. Wille
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850 MeV
Microtron
from K. Wille
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Synchrotron
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5 -10 GeV
from K. Wille
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RF – Linear Accelerator
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SLAC, 50 GeV
from K. Wille
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References:
K.L. Jensen et al., „Theoretical model of the intrinsic emittance of a photocathode,”Appl. Phys. Lett. 89, 224103 (2006). W. E. Spicer, Phys. Rev. Lett. 11, 243 (1963). David H. Dowell and John F. Schmerge, „Quantum efficiency and thermal emittance of metal photocathodes,“ PRSTAB 12, 074201 (2009). K. Wille, „Physik der Teilchenbeschleuniger und Synchrotronstrahlungsquellen,“ Teubner Studienbücher (1992). US PARTICLE ACCELERATOR SCHOOL, uspas.fnal.gov
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